Acousto-Optical Spectral Technologies

doi:10.3390/books978-3-0365-9518-4

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Acousto-Optical Spectral Technologies

Edited by

December 2023

216 pages

ISBN978-3-0365-9519-1 (Hardback)
ISBN978-3-0365-9518-4 (PDF)

https://doi.org/10.3390/books978-3-0365-9518-4

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This book is a reprint of the Special Issue Acousto-Optical Spectral Technologies that was published in

Chemistry & Materials Science

Engineering

Physical Sciences

Summary

Acousto-optic technologies have increasingly attracted the attention of scientists and engineers. Acousto-optic interactions have become the flexible basis of compact and robust devices for the analysis of the intensity, spectrum, polarization, and other properties of light. In this book, modern trends of acousto-optical spectral technologies, including the fundamentals and optimization of existing techniques, are highlighted and discussed. This reprint provides a forum for reports on technical developments that allow the spectral analysis of various objects to take place. The goal of this reprint is to provide readers with an overview of the hot topics and the state of the art regarding the applications of acousto-optic techniques, including new materials and structures, theoretical and experimental studies of light diffraction by ultrasonic waves, spectroscopy, and spectral imaging.

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Keywords

acousto-optics; phased-array piezoelectric transducers; acousto-optic materials; anisotropic Bragg diffraction; acousto-optic devices; spectral imaging; acousto-optic interaction; image quality; confocal scheme; collimating scheme; AOTF spectrometer; in situ measurement; lunar surface; acousto-optic interaction; terahertz radiation; diffraction; liquefied inert gas; transparent electrode; mesh structure; sheet resistance; transparency; groove; lithography; chemical deposition; shielding efficiency; acousto-optic interaction; terahertz radiation; diffraction; liquefied inert gas; acousto-optic crystals; propagation of acoustic waves; non-destructive testing; impulse acoustic microscopy; AOTF; AutoML; feature wavelength selection; near infrared detection system; AOTF spectrometer; aberrations; coordinate mapping; acousto-optics; diffraction; figure of merit; monoclinic crystal; potassium rare-earth tungstate; two-dimensional phononic crystals; fused silica; finite element method; polarization of acoustic waves; acousto–optic interaction; terahertz radiation; diffraction; liquefied inert gas; acousto-optic; tunable filter; surface plasmon resonance; surface electromagnetic wave spectroscopy; thin film thickness; wavelength and angular interrogation; refractive index sensing; AOTF spectral imager; geometric calibration of AO crystal; spectral response; imaging aberrations; tuning curve; AOTF; acousto-optic interaction geometry; polar angular analysis; tolerance analysis; AOTF; spectral imaging system; polarization multiplexed; high throughput; color reproduction; spectral power distribution; acousto-optic interaction; Bragg diffraction; multi-wavelength light filtration; image processing